Abstract: The present invention discloses a refrigeration dehumidifier with compensation and controlling method thereof. The refrigeration dehumidifier with compensation comprises an environment-adjusting unit, a temperature-detecting unit, a humidity-detecting unit, a temperature-adjusting unit and a control unit. The temperature-adjusting unit is used to derive a plurality of adjusted temperature values by calculating or searching from a temperature table, then the real moisture values corresponding to the indoor space. The control unit is used to adjust the environment-adjusting unit based on the plurality of moisture values, in order to shorten the time achieving a target-moisture value.

Abstract: The present invention discloses an air conditioning (AC) system with compensation and controlling method thereof. The AC system with compensation comprises an environment-adjusting unit, a temperature-detecting unit, a humidity-detecting unit, a non-delayed humidity-estimate unit and a control unit. The non-delayed humidity-estimate unit is used to derive multiple non-delayed humidity-estimate values by calculating or searching from a humidity table. The control unit is used to adjust the power of the environment-adjusting unit based on the multiple non-delayed humidity-estimate values, in order to shorten the time achieving a target-moisture value.

Abstract: An air conditioning economizer includes a compressor, a condenser, a metering device, an evaporator generating condensed water during operation, a refrigerant pipe and a textile member. The refrigerant pipe is a loop pipe interconnecting the compressor, the condenser, the metering device and the evaporator, and includes a supercooling section interconnecting the condenser and the metering device. The textile member is capable of transferring moisture, is quick drying, covers the supercooling section and the metering device, and is adapted for absorbing the condensed water.

Abstract: A method for manufacturing a nanocarbon material includes the steps of: a) supplying an acetylene-based flammable gas into a torch nozzle at a flow rate such that an ignition at the torch nozzle produces a reducing flame in a cooling zone in a chamber; and b) supplying a cooling medium to a nebulizer disposed upstream of the cooling zone to produce nebulized droplets of the cooling medium such that the nebulized droplets come into contact with the reducing flame in the cooling zone to thereby cause carbon nanoparticles to be entrained in the nebulized droplets.

Abstract: A compressor is to be used in an air conditioner. The air conditioner includes the compressor, an evaporator, and a container. The evaporator generates condensed water during operation. The container receives the condensed water generated by the evaporator. The compressor includes a main body and a textile member that is capable of transferring moisture and is quick drying. The main body is to be disposed in the container. The textile member covers at least a part of the main body, and is to be used for absorbing the condensed water.

Abstract: An apparatus for producing a graphene material includes a tank, a container, an agitating module, a second electrode disposed in the tank, and a power supply module. The container is used for receiving a graphite material, and is formed with a plurality of through holes for the electrolyte solution to pass therethrough. The agitating module includes a control unit and an agitating unit used as a first electrode, and inserted into the container for agitating the electrolyte solution and the graphite material. The power supply module is electrically connected to the agitating unit and the second electrode for supplying electric power to generate an electrical potential difference.

Abstract: An economizer compressor is to be used in an air conditioner. The air conditioner includes the economizer compressor, an evaporator, and a container. The evaporator generates condensed water during operation. The container receives the condensed water generated by the evaporator. The economizer compressor includes a main body and a textile member that is capable of transferring moisture and is quick drying. The main body is to be disposed in the container. The textile member covers at least a part of the main body, and is to be used for absorbing the condensed water.

Abstract: An air conditioning economizer includes a compressor, a condenser, a metering device, an evaporator generating condensed water during operation, a refrigerant pipe and a textile member. The refrigerant pipe is a loop pipe interconnecting the compressor, the condenser, the metering device and the evaporator, and includes a supercooling section interconnecting the condenser and the metering device. The textile member is capable of transferring moisture, is quick drying, covers the supercooling section, and is for absorbing the condensed water.

Abstract: A method for manufacturing a nanocarbon material includes the steps of: a) supplying an acetylene-based flammable gas into a torch nozzle at a flow rate such that an ignition at the torch nozzle produces a reducing flame in a cooling zone in a chamber; and b) supplying a cooling medium to a nebulizer disposed upstream of the cooling zone to produce nebulized droplets of the cooling medium such that the nebulized droplets come into contact with the reducing flame in the cooling zone to thereby cause carbon nanoparticles to be entrained in the nebulized droplets.

Abstract: An apparatus for producing a graphene material includes a tank, a container, an agitating module, a second electrode disposed in the tank, and a power supply module. The container is used for receiving a graphite material, and is formed with a plurality of through holes for the electrolyte solution to pass therethrough. The agitating module includes a control unit and an agitating unit used as a first electrode, and inserted into the container for agitating the electrolyte solution and the graphite material. The power supply module is electrically connected to the agitating unit and the second electrode for supplying electric power to generate an electrical potential difference.